JP2001081897A - Civil construction member and its manufacture - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a construction member that has good appearance and a waterproof function, and does not require a surface treatment, by applying resin mortar that hardens even under existence of moisture on a die member, applying cement-based hardening material before complete hardening, and hardening it. SOLUTION: This civil construction member 1 comprises concrete 2 and resin mortar 3. For manufacturing it, the resin that reacts and hardens even under existence of moisture, namely the resin mortar 3 made of aggregate is applied onto a die member, and cement-based hardening material is applied before complete hardening. The resin mortar 3 is polysulphide denaturation epoxy resin or the like, and the aggregate is small stone, sand, or ballast. The cement-based hardening material 2 is cement, mortar, or concrete. For increasing apparent thickness of the resin mortar 3 layer of the side surface, a tray-like body with a mesh in its center or a mesh in its bottom is placed, and the cement-based hardening material is applied from upside. This can clean the surface, improve durability, and substantially eliminate a surface treatment.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

The present invention relates to a member for civil engineering and construction and a method for manufacturing the same.

[0002]

2. Description of the Related Art Buildings, bridges, columns and the like, which are structures, are usually made of concrete. This is because they have excellent strength and durability. Various surface treatments have been applied to the concrete surface for reasons such as poor surface appearance, poor smoothness, relatively brittle shaving, and water permeability with concrete alone. For example, a tile is attached to the surface, a natural stone plate is attached, a spray material is applied, and the like. In this way, the surface is beautified and the durability is enhanced.

[0003] Further, in response to the demand for shortening the construction period, PC boards,
ALC plates have been used, but these are also similar in terms of surface treatment. However, these are excellent in that surface treatment can be performed in a factory.

[0004]

However, as described above, it is not preferable to perform surface treatment on site because of the problem of work period. Further, even if a concrete plate is preliminarily subjected to a decorative treatment at a factory, the concrete plate is manufactured, and after it is completed, the surface treatment is performed. For example, sticking a tile or a natural stone on the surface of a concrete plate naturally takes time, and sticking itself is difficult with a resin material. Also, there is a problem of peeling even when spraying resin mortar. Therefore, a high-quality decorative veneer whose surface is treated with a concrete plate or the like has been desired.

[0005]

In view of the above situation,
The inventor of the present invention has completed the civil engineering building member and the method of manufacturing the same according to the present invention as a result of earnest research. The feature of the present invention is that in the civil engineering building member, the surface shape of the resin mortar is determined. A resin mortar composed of a resin and an aggregate that reacts and cures even in the presence of moisture is applied onto a mold member, and a cement-based solidifying material is applied and cured before the resin mortar is completely cured. It is in.

In the manufacturing method, a resin mortar composed of a resin and an aggregate that reacts and cures even in the presence of moisture is applied to a mold member that determines the surface shape of the resin mortar,
The point is that the cement-based solidifying material is applied before the resin mortar is completely cured, or the presence of moisture before the cement-based solidifying material is completely cured by applying the cement-based solidifying material to a mold or a base material. Also in the lower part, a resin mortar composed of a resin and an aggregate that reacts and cures is applied, and the resin mortar is pressed by a mold member from above.

[0007]

BEST MODE FOR CARRYING OUT THE INVENTION The member for civil engineering and construction referred to in the present invention comprises at least two layers of a cement-based solidifying material and a resin mortar. It means what fulfills. This civil engineering building member is used for any part of the building, such as a wall plate, a floor plate, a pillar surface material (which may be curved), a fence material, a roof material, a flat block for a pavement, and an interlocking block. it can.

[0008] The resin used in the resin mortar of the present invention is:
The first feature is that the resin is a resin that reacts and cures even in the presence of moisture. The resin that reacts and cures even in the presence of moisture refers to a resin that is not substantially inhibited from curing even if the resin before curing is in contact with moisture. In the present invention, any resin may be used as long as it is such, but a resin modified with polysulfide is preferable. This is one in which one or more units containing S are contained in the main chain or the side chain. Of course, the polymer is a collection of various molecular weights, and since the S content in the monomer unit may be different, the average amount of S is about 0 to 3 units. More specifically, a group containing -X- (R ₁ -S _a ) _b -R ₂ -Y- (polysulfide chain) is contained in a main chain or a side chain. Here, R ₁ and R ₂ represent a divalent methylene group (—CH ₂ —) and a divalent dimethyl ether group (—
CH ₂ OCH ₂ —), a divalent isopropanol group (—C
H ₂ CH (OH) CH ₂ —), a divalent ethanol group (−
CH ₂ CH (OH) —) and (—CH ₂ CH ₂ OC
H ₂ OCH ₂ CH ₂ —), (—CH ₂ CH ₂ O—), etc., which may be one or more or a combination thereof. Further, R ₁ and R ₂ may be the same or different. X and Y are groups selected from -S-, -O-, and -NH-. _a is an integer of 0 to 5 for each repeating unit, and _b is an integer of 1 to 50. However, when _a is 0 for all the repeating units, at least one of X and Y is a -S- group. _a is preferably 1 to 2.5.
It is only necessary that the above-mentioned polysulfide chain is located somewhere in the structure of the resin.

[0009] For example, in the case of an epoxy resin,
Addition reaction of a sulfur-containing monomer or oligomer having a reactive functional group (including a prepolymer) with an epoxy prepolymer having two or more epoxy groups in a molecule or, for example, addition reaction of a polysulfide polythiol with an epoxy prepolymer. And so on.

In the case of a urethane resin, a one-component urethane contains a polysulfide chain in a part or all of the main chain of the molecule, and a two-component urethane similarly contains a polysulfide in a prepolymer and / or a curing agent. What is necessary is just to include a chain. In the case of the two-pack type, the polysulfide resin (terminal SH) itself may be used as a curing agent.

The aggregate used for the resin mortar may be not only inorganic materials such as small stones, sand, gravel, ceramics and crushed and crushed products, but also organic materials such as rubber chips and plastics. The shape of the grains may be any shape. In the case other than a sphere, the expression diameter means an approximate outer size. Considering aesthetics, it is also possible to use natural stones (marble, granite, etc.) to make patterns using stones and ceramics of various colors.

The mixing ratio of the resin and the aggregate may be determined from the pattern to be expressed, the required weather resistance, the cost, and the like. Usually, the ratio of aggregate / resin is about 19/1 to 2/1 by weight. The ratio has a large range because aggregates include heavy materials such as stones and lightweight materials such as rubber chips. Depending on the ratio of aggregate / resin, the structure of the cured product has various properties from a water-permeable structure having voids to a dense structure having no voids.

The mold member is a molding die for giving a predetermined shape to the resin surface, and may be a simple flat plate, a burner-finished unevenness, or a shape such as an Edo-cut. . In short, any mold having a shape desired to be applied to the surface may be used. The mold member may be a simple plate or sheet when the product to be manufactured is thin, but has a bottomed container shape when the product is thick. In this case, even if the entire container is a mold member,
A mold member may be placed on the bottom separately from the container (mold body).

In the present invention, the term "coating" is used as a concept including filling and casting a container-shaped mold.
In short, this means that a cement-based solidifying material, a resin mortar, or the like is placed in a predetermined place or container.

The resin mortar layer formed on the cement-based solidified material does not necessarily need to be homogeneous, but may be more than a piece of concentration formed by sedimentation of the aggregate.
Two or more layers having different aggregate concentrations may be laminated, and the outermost layer of the surface layer may be a thin layer of only resin.

The term "before the resin mortar is completely cured" means at least before the upper surface has been cured, and the state is not limited below. However, from the viewpoint of shortening the construction period, it is preferable to apply the cement-based solidifying material immediately after applying the resin. The state before the upper surface layer is hardened means that the resin mortar surface in contact with a cement-based solidifying material such as ready-mixed concrete is not solidified. For the lower part,
In some cases, the cured state is almost the same as that of the upper surface, but in other cases, the curing is progressing due to heat generation and heat storage. Alternatively, the lower portion may be solidified in advance, and the upper surface may be applied. In this case, the upper surface is a resin that cures and adheres even in the presence of moisture, but the resin in the lower portion may be any resin as long as it adheres to the upper surface. For example, the resin in the lower part is a cured MMA resin having a part of OH, and the upper surface is a polysulfide-modified urethane resin.

Conventionally, when moisture in the cement-based solidifying material is present, phenomena such as poor curing of the resin or little adhesion between the resin layer and the cement layer have occurred. Also,
Even after one is completely cured, the adhesion is not good,
A two-layer structure is used by using a special adhesive or a physical method such as a bolt. The cement-based solidifying material uses cement such as cement, mortar, concrete, and the like, and may be any material that solidifies. What mixed other things with cement may be used.

After the application of the resin mortar and the application of the cement-based solidifying material, the same steps (vibration, defoaming, etc.) as in the case of a normal concrete product may be applied when the application is performed in a container-shaped mold.

According to the present invention, the resin mortar layer as the decorative portion and the cement layer as the main body are used. However, even when affixed to a wall or the like as a plate member, the side surface is seen to some extent from the joint. If the visible part is not a resin mortar layer but a cement layer, it is meaningless as a decorative material and not only cheap, but also has no meaning in weathering treatment such as waterproofing. So, aside from the center, the surface is natural,
It is desirable to increase the resin mortar layer on the side as much as possible. Therefore, when the resin mortar is applied first, and then the cement-based solidifying material is applied, instead of forming two parallel layers, the cement-based solidifying material is applied mainly to the center portion and the resin mortar in the peripheral portion is placed in a container. There is a method in which the resin mortar layer is made to rise along the wall surface to increase the thickness of the resin mortar layer on the side surface.

In order not only to apply the cement-based solidifying material to the center portion but also to more positively raise the side portion, a penetrating member such as a mesh (mesh,
Perforated plate) and then apply a cement-based solidifying material from above. Further, instead of the mesh, a tray-shaped body having a mesh at the bottom and having a slightly smaller overall area than the bottom of the mold can be placed. The mesh plays a role in averaging the thickness of the resin mortar layer and starting the resin mortar on the side surfaces without hindering the adhesion between the resin mortar and the cement-based solidifying material. Not only the mesh but also a sheet-like material can be used as long as it adheres to both the cement-based solidifying material and the resin mortar. For example, a material obtained by applying an adhesive to both surfaces of a cloth or a film-like material, or a powder-adhering treatment may be used. For a penetrating member such as a mesh, treatment with an adhesive resin or powder adhesion treatment is also effective.

Another method of raising the resin (mortar) along the vessel wall is to substantially reduce the resin (mortar) into the initially injected resin (mortar) without waiting for the cement-based solidifying material to be injected. Sheet material (cloth,
(Film, mesh, etc.) is planted like a fence along the vessel wall, and after the resin (mortar) is solidified, the resin (mortar) is further injected between the wall surface and the sheet-like material. It is necessary to apply the resin (mortar) again to the first solidified resin (mortar) to adhere to the cement-based solidifying material.

Further, as described above, according to the present invention, after the resin mortar is applied first, the cement-based solidifying material can be applied. On the contrary, after the cement-based solidifying material is applied first, the resin mortar is applied. It can also be applied. In this case, the mold member forming the surface of the resin mortar is finally placed on the resin mortar and pressed. In either case, the cement-based solidifying material preferably has relatively low moisture content, is hardened, or is kneaded in a dry shape.

Hereinafter, the present invention will be described in more detail based on embodiments shown in the drawings.

FIG. 1 is a perspective view showing an example of a member for civil engineering and construction according to the present invention. It consists of concrete 2 and resin mortar 3. The civil engineering building member 1 of this example is 1 m × 2 m and 50 mm thick (a concrete layer contains a reinforcing bar). As the resin mortar 3, a mixture of a polysulfide-modified epoxy resin and an aggregate (colored sand) was used. The mixing ratio is aggregate / resin = approximately 4/1, and the size of the aggregate is approximately 80% by weight when the particle size is 3.0 to 0.4 mm and 20% by weight when the particle size is less than 0.4 mm. Met. The lower concrete layer 2 in this example may be in the form of a slate in which fibers are mixed with mortar. In this case, the total thickness can be about 15 to 20 mm.

FIG. 2A is a sectional view of FIG. It can be seen that the surface and part of the side are resin mortar 3. This is because when the cement-based solidifying material was applied from the center, the load caused the resin mortar in the surrounding area to be pushed up. FIG. 2B is an extreme example thereof.
The entire side surface is made of resin mortar. By doing so, a more luxurious feeling is obtained.

FIG. 3 is a perspective view, partially cut away, of a mold member manufactured with an Edo-cut structure. The top flat surface 4 has a burner finish, and the peripheral portion 5 has a smooth surface.

FIG. 4 is a sectional view showing the working steps of an example of the manufacturing method of the present invention. FIG. 4A shows a state where the mold member 7 is placed on the bottom of the molding die 6. FIG. 4B shows a state where the resin mortar 8 is filled therein. FIG. 4 (c)
Is a place where the mesh 9 is placed on the surface of the uncured resin mortar 8.

FIG. 4 (d) shows the state of FIG. 4 (c), in which a cement-based solidification material 10, here a ready-mixed concrete, is filled from the center. At this time, the mesh 9 has a certain degree of resistance, and the entire resin mortar (below the mesh) is pushed down. As a result, the resin mortar 8 is pushed upward from the peripheral portion, and a rising portion is formed. Naturally, since the mesh is used, there is no problem in bonding the resin mortar layer and the cement-based solidifying material.

FIG. 4E shows a state in which the cement-based solidifying material is filled by a predetermined amount. After this, it is cured (semi-cured),
If you remove it, you're done.

[0030]

According to the member for civil engineering construction of the present invention, there are the following advantages. (1) The surface of a cement-based product is made beautiful by resin mortar, and the durability is improved. Therefore,
If the member for civil engineering construction of the present invention is used, almost no surface treatment is required after construction. (2) Since a special resin is used, the adhesion between the resin mortar layer and the cement-based layer is strong, and there is no fear of peeling. (3) Even when a cement-based solidifying material is applied when the resin is not cured, solidification and poor adhesion do not occur, so that the manufacturing time can be reduced. (4) By appropriately selecting the mold member, the surface shape and the degree of unevenness can be freely adjusted, so that various surface treatments can be expressed. (5) Depending on the manufacturing method, the side surface can also be made of resin mortar, and the whole can have a very high-grade appearance. (6) Since the manufacturing method is simple and quick, it can be made very inexpensive as compared with the conventional surface treatment. (7) Since it can be applied to any shape, it can be used anywhere.

[Brief description of the drawings]

FIG. 1 is a perspective view showing an example of a member for civil engineering and construction of the present invention.

FIG. 2 is a cross-sectional view illustrating an example of a member for civil engineering and construction according to the present invention.

FIG. 3 is a partially broken perspective view showing another example of the member for civil engineering construction of the present invention.

FIG. 4 is a cross-sectional view showing an example of steps of a method for manufacturing a member for civil engineering and construction according to the present invention.

[Description of Signs] 1: Civil engineering building material 2: Concrete 3: Resin mortar 4: Top plane 5: Peripheral part 6: Mold 7: Mold member 8: Resin mortar 9: Mesh 10: Cement-based solidifying material

 ────────────────────────────────────────────────── ─── Continuation of front page (72) Inventor Hideharu Nagata 9-2-30 Tanimachi, Chuo-ku, Osaka-shi, Osaka Prefecture F-term in OSADA GIKEN Co., Ltd. 2D051 AF01 AF02 AF03 AF07 AG11 AH02 DA02 DA11 DA14 DB02 2E162 CA01 CA11 CD04 CD08 CE07 FA12 4G052 AB04 AB25

Claims (7)

[Claims] 1. A resin mortar composed of a resin and an aggregate that reacts and cures even in the presence of moisture on a mold member that determines the surface shape of the resin mortar. A member for civil engineering and construction characterized by being applied with a solidifying material and cured. 2. The method according to claim 1, wherein, after applying the resin mortar, the penetrating member is placed while leaving a peripheral portion of the resin mortar, and then a cement-based solidifying material is applied. Civil engineering building materials. 3. The member for civil engineering and construction according to claim 2, wherein the penetrating member is a planar mesh. 4. The member for civil engineering and construction according to claim 2, wherein the penetrating member is a shallow basin-like body, and the bottom is a mesh. 5. The member for civil engineering and construction according to claim 1, wherein the resin is a resin modified with polysulfide. 6. A resin mortar composed of a resin and an aggregate that reacts and cures even in the presence of moisture on a mold member that determines the surface shape of the resin mortar. A method for producing a member for civil engineering and construction, comprising applying a solidifying material. 7. A cement-based solidifying material is applied to a mold or a base material, and before the cement-based solidifying material is completely cured, a resin mortar composed of a resin and an aggregate that reacts and cures even in the presence of moisture is applied. And then pressing the resin mortar from above with a mold member.